船舶 ›› 2023, Vol. 34 ›› Issue (01): 161-174.DOI: 10.19423/j.cnki.31-1561/u.2023.01.161

• 极地关键设备配套和核心能力建设 • 上一篇    下一篇

极地船轴系的强度设计分析

殷汉军1, 刘城2, 王其峰3   

  1. 1.DNV大中国区海事部技术中心 上海 200336;
    2.DNV大中国区数字化服务中心 上海 200336;
    3.DNV挪威数字化服务中心 奥斯陆 1363
  • 收稿日期:2022-10-12 修回日期:2022-12-01 出版日期:2023-02-25 发布日期:2023-03-06
  • 作者简介:殷汉军(1975-),男,硕士,主任工程师。研究方向:船舶动力设备与系统的规范化研究与应用。王其峰(1982-),男,硕士,主任工程师。研究方向:船舶推进系统强度和可靠性研究以及相关软件开发。刘城(1987-),男,硕士,高级工程师。研究方向:船舶推进系统强度和可靠性研究以及相关软件开发。

Shafting Strength Design for Polar Ships

YIN Hanjun1, LIU Cheng2, WANG Qifeng3   

  1. 1. DNV Maritime Approval Center, Shanghai 200336, China;
    2. DNV Digital Solutions, Shanghai 200336, China;
    3. DNV Digital Solutions, Oslo 1363, Norway
  • Received:2022-10-12 Revised:2022-12-01 Online:2023-02-25 Published:2023-03-06

摘要: 极地船舶的开发是我国极地战略目标的重要支撑部分,而船舶的动力心脏——推进系统的强度设计因极地冰区的多工况航行变得更为复杂。为保证船舶在极地航行的可靠性和安全性,该文介绍了DNV船级社关于极地船轴系强度的基本设计理念和相应的规范要求。关于冰载激励对推进系统设备的影响,DNV基于其经验推荐了1种考虑柴油机气缸激励和冰载激励相位角的数字解决方案。文中应用DNV开发的Nauticus Machinery软件对某PC4级别的冰区船舶轴系分别进行了时域和频域扭振计算,然后采用Palmgren-Miner线性累积疲劳方法进行了该轴系尺寸的合规性分析,并对时域分析结果和频域分析结果进行了比较。针对极区船推进轴系的强度设计,文章提出了1种迭代方案来进行轴系的尺寸设计及优化。

关键词: 极地船舶, 轴系强度设计, 冰载激励, 时域分析

Abstract: The developing of polar ships is an important support of the polar strategic target in China, while the multi-working conditions of ships sailing in polar ice regions complicate the strength design of the propulsion machinery system - the heart of a vessel. The design principle and the corresponding rules and specifications for the strength of the propulsion shafting of DNV are introduced to ensure the reliability and safety of the ships sailing in polar regions. Regarding the impact of the ice load excitation on the propulsion system and the shafting components, DNV recommends a digital solution considering the excitation of the diesel engine cylinder and the phase angle of the ice load excitation based on its experience. In the current study, the Nauticus Machinery software developed by DNV is used to calculate the torsional vibration of a PC4 polar ship in time and frequency domain. The shafting dimension is then evaluated by using the Palmgren-Miner linear damage rule, and the results of the time-domain analysis are compared with those of the frequency-domain analysis. An iteration procedure has been provided for the design and optimization of the shafting dimension aiming at the strength design of the propulsion shafting for polar ships.

Key words: polar ship, shafting strength design, ice load excitation, time-domain analysis

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